Bottling-machine.



A. A. CARPBR.

BOTTLING MACHINE.

APPLIUATIQN FILED JUNE 1, ,1903.

Patented Dec. 26, 1911.

7 SHEETS-SHEET 1.

SHORT LONG' NECK NECK Ihren/fof MMW f s A. A. GARPER.

BOTTLING MACHINE.

APPLIGATION FILED JUNE 1, 1908.

Patented Dee. 26, 1911.

7 SHEETS-SHEBT 2.

` mum A. A. CAREER.

BOTTLING MACHINE.

APPLICATION FILED JUNE 1, 190s Patented Dec. 26, 1911.

7 SHEETS-SHEET 3.

Lmzm..

A. A. GARPER.

l BOTTLING MACHINE. APPLIoATIoN FILED JUNE 1, 190s.

Patented Dec. 26, 1911. v

7 SHEETS-SHEET 4A lllll A. A. GARPER.

BOTTL'ING MACHINE,

APPLICATION FILED JUNI; 1, 190s.'

Patented Deo. f, 1911.

7 SHEETS-SHEBT 5.

. En o oc .Mod

. Kmwimk A. A. GARPER.

BOTTLING MAGHXNE.

APPLICATION FILED JUNE 1. 1908.

Patented Dec. 26, 191 1.

7 SHEETS-SHEET 6.

w Aignan* gli@ w iai' am.

A. A. CRPER.

BOTTLNG MACHINE.

APPLICATION FILED JUNE 1, 1903.

Patients@ Dec. 26, 1911.

7 SHEETS-SHEET 7,

(lling the bottle closing devices.

. UNITED- srarEs PATENT oEEIoE,

ALBERT ALFRED CAREER, or RALTrMoRE, MARYLAND, AssIGNoR 'rov THE CROWN CORK & SEAL CO., OF BALTIMORE-MARYLAND.

" BOWLING-MACHINE.

Application filed .Tune 1, 1908'. Serial No. 435,975.

To all whom if may concern:

Be it known that I, ALBERT ALFRED CARPER, a. citizen of the United States, residing at Baltimore city, State of Maryland, have invented certain new and useful Improvements in Bottling-Machines, fully described and represented in the followmg specification and the accompanying drawings, forming a part of the same.

lhis invention relates to machines for bottling liquids, and While, as to' some of its features, the invention is capable of various other applications, it has particular reference to bottling liquids under pressure, such as`carbonated beverages.

One of the objects of the invention is to, produce an improved machine for automatically performing the operations of lilhng and of sealing bottles at high speed and with great accuracy and preclsion.

A further object -of the invention'is'to produce an improved machine in which the operation of -the means for effecting 'the filling of the bottles is controlled by the presence or absence of the bottle.

A further objcctof the invention lsto produce an improved bottling machine which can be readily adjusted so that it may bue capacitated to handle bottles of varying sizes.

A further object of the invention is t0 produce an improved mechanism for han-f The invention further has in view the im; provement in certain details of construction of bottling machines by which the various operations may be quickly and certainly" performed. J

lVith these and other objectsnot speclfically referred to in view, the linvention consists'in certain constructions and in certain-v parts, improvements and combinations as will be hereinafter fully described and then specifically pointed out.

Referring to the drawings which illustrate one embodiment of the invention, and

in which like characters of reference indicate the same parts- Figure 1 is -a front elevation of a portion of a bottling machine embodying the invention, two bottling mechanisms being shown. Fig. 2 illustrates two common forms of bottles, one having a short neckand the other a long neck, indicative of dii'erent kindswhich my machine :1an u'se. Fig. 3 (Sheet 2) is aside elevation Specification of Letters Patent.

-Patented Dec. 26, 1911.

of one of 4the bottling mechanisms illustrated in Fig. 1, certain parts being shown in section. Fig. 4 is a central vertical section of one of the bottle presenting devices, parts of a controlling mechanism being shown in this figure. Fig. 5 is a top view of the construction illustrated in Fig. 4. Figs. 6, 7, 8 and 9 illustrate certain actuating cams which may be employed. fFig. 10 is an enlarged side view of one of the heads containing the filling chamber and certain parts operatively connected with the head.' Fig 11 1s a central vertical section of t-he construction shown in Fig. 10. Figs. 12, 13 and 14 illustrate in perspective, plan and section, respectively, certain features of cap feeding mechanism which may be employed. Fig 15 is a front elevation of a construction which may be employed to seal a cap feeding opening or port in the fllinor head. Fig. 16 is a rear elevation of part of one of the filling heads, showing a cap feeding opening. or, port. Fig. 17 is an enlarged vertical section of one of the filling heads and the liquid supplying means illustratedl in Fig. 1. Fig. 18 is a detail which may be employedin connection with the pump illustrated in Fig.-17. Fig. 19 is a side elevation of the pump illustrated in Fig. 17, certain parts being shown in section. .Figs 20 and 21 illustrate, in sectional side elevation a part of one ofthe filling heads shown in Fig. 1 and certain features of construction connected therewith, certain parts being shown in different positions in the two ligures. Figs. 22 and'23 '-.i1lustrate, respec@ tively, in plan and side elevation, the cap port sealing device illustrated in Fig. 15,

parts being in section. Fig. 24 is a top'view of one of the Ifilling heads illustrated in Fig. 1 and certain features of construction conne'cted therewith. Fig. 25 is a sectional plan v ifew of one of the Afilling heads illustrated n Fig. 1, the plane of section cutting I the cap chute.

The frames of machines embodying the invention may be of any suitable construction. In the articular machine selected to .illustrate the invention, the frame (see Figs.

1 and 3) includes a central or main plate A and at each end an end plate A', but one of which is shown. The main plate is firmly united to the end'plates, and further united and braced by a longitudinal footplate A2. The end plates are provided with'. ntglal,

legs, and at its outer side, each plate has a strong vertical post A3, upon which 1s mounted a, strong horizontal head plate A4. At the front side of the machine there may, if desired, be provided a bottle shelf A5, for empty 'and filled bottles, or for boxes containing the same. l

While the invention as to some of its aspects may be carried into effect bya machine which embodies only the elements Whichform a single bottling mechanism, machines which embody the invention in its best form will include a. plurality of sets of' such elements or bottling .mechanisms Furthermore, when a plurality of sets of mechanisms is employed and the machine embodies the invention in its best form, the sets will be so fixed -in the frame as not to move laterally, that is to say', the sets of mechanisms Wi not have'any rotaryor traveling movelment. The elements which go to form the bottling mechanism or sets thereof may be varied according to the character of liquid to be bottled and the operations to be' performed by the machine. Whether, however,

-the invention be embodied in a machine having only lthe elements which form a single bottling mechanism, -or whether, as-in the particular machine illustrated, it be embodied ina machine which has a plurality' 'of sets of such elements or mechanisms, each bottling mechanism or set lof bottling mechanisms Will include a bottle presenting de- Vice. While these bottle presenting devices may be varied Widely in construction, in the "particular machine illustrated (see Figs. 3

and 4) in which the presenting device as a Whole isindicatedtby the letter C, said device includes a main or outer cylinder C. As shown, this cylinder has a guide bearing at the main frame plate A, and it is vert-ical-ly slotted and splined in its bearing for preventing rotation. At its lower end it has 'a screw-threaded foot block' .C2 provided, .with a central pendent spindle, serving as a tail guide in a bearing in the foot plate A2 of the frame. p

In the best constructions embodying the invention means should be provided by which the bottle presenting device or carrier is made adjustable in order that bottles of different lengths may be operated upon. lVhile the construction by which this is c ffected may be varied, as illustrated, the lower exterior portion of the cylinder C is provided with a heavy screw-thread, to which is fitted a lock nut C3, split at one side and provided with lugs and afclamping bolt for enabling the relations of the cylinder and nut to be varied, as by rotation ofthe nut. and then securelylocked in positions ln the particular machine shown, thc lpresenting -devicestare given a reciprocatin movement to present the bottles to the fillin mechanisms hereinafter referred to. While the means employed may be varied inc o= struction, the ock nutC3 provides a bearlng Fig. 3, hinged upon. a horizontal rod C5, at the rear of the machine. The lever yoke C4 may beactuated by. a suitable cam as C, (Figs. 3 and .8) mounted on a cam-shaft, as B.

It'has been heretofore stated that Inachines which embody the invention in its Vbest form will include a plurality of sets of bottling mechanisms. When the invention is embodied in this type of machine,ito obtain the best results the construction should be such that the sets of mechanism operate continuously and out of'time, that is to say, each of the several operations which are performed by each set are so timed as not to tion in any other set. This continuous operation out of time enables a large output to he obtained from the machine. It will, of course, be understood that the mechanisms ent upon and do notaifect. the operation taking place atA another set though the sets are connected up to operate in-a certain order 'or time with respect to each other. lVherea plurality of setshof bottling mechanisms 'are being operated, in the type of machine referred to, theyT will operate continuously and out of time. This operation an externallv screw-threaded hub a', which rests upon the foot block C2. At its top, this spring underlies the flange of a sleeve a2 slidably on and guided by a tubular extension of the hub a having at the top thereof an annular hardened steel beveled seat a3 upon which four hinged pendent beveled faced tripping dogs, Z) have endwise bearings. These dogs form a part of the lower section or end of a plunger or piston to which they are hinged at their upper ends, just above a fixed check ring b which prevents outward displacement of their lower ends from the annular seat a3. These `tripping dogs are controlled by a central vertical bolt b2 having its head 63, at its lower end, provided with a top surface beveled reversely from the seat a3. so that the dogs, each having two beveled faces, may

surface for the two ends of a yokelever Ct,

occur simultaneously With the sameopera- .are independent in the sense that the opera- Y. tions performed-by-one setarenot dependout of tlme, 'so far as the bott-le presenting firmly bear upon both the seat and the boltl head. This bolt b2 also serves to couple. -t'ne middle plunger section c to van upper plunger section c', and also to maintain a heavy spring 02 under 'a predetermined tenmechanism so far described is similar to that .disclosed invUnited States Letters Patent to William Painter, No. 638,354, De-

cember 5,'1899.

The top of the bottle presenting device may be constructed to have a limited yielding movement with respect to the remainder of thedevice. To eEect this, there m'ay be employed a vcomparatively li ht spring c* which has its base upon the ange of a sleeve lixedly Amounted upon a tubular screw-threaded bushing 0 having a neck which extends downwardly into the tubular hub c3 of the upper section c" of the piston .or plunger. This spring c* supports the bottlelcarrier head C1 Which-has a central pendent screw-threaded boss occupied by the screw end of a bolt c6 having a head, the flange of which abuts 'against the lower end of t-he tubular bushing c5, thus providing for varying the tension of this spring. The carrier head@7 may, have an annular depending fiange c7 slidable on the cylinder C provided with grooves' at cs which, at their upper ends, may have shoulders engaged by studs c", in the flange of the carrier head, thus .preventing the top from turning as it moves. The top of the carrier head may bezrecessed for an elastic disk or cushion c1", serving as a bottle seat.

Machines embodying the invention willi include suitable means forsupplying liquid to the bottles to be filled, which. means may be varied widely in construct-ion. l', the best constructions embodying the invention, the liquid supplying devices will deliver the liquid to be bottled through a filling chamjber, the bottle, prior to the delivery of the liquid, having been presented to the filling chamber by the presenting device. ,In the particular construction illustrated,.the fillmg chamber, indicated at G, is formed at the lower end of the'head L', this head being firmly secured to the bar A* forming a I' part of the frame.

In. bottling liquids under pressure, thelling chamber should be tightly closedI when the bottle has been introduced thereinto. i This maybe effected by a gasket G (see Figs. 17, 20 and 2 1) whlch is adapted to be contracted to reduce its central aperture formaking' packing contact with the bottle. While the contraction of the gasket to make' tight contact with the bottle may be effected in any suitable manne in.

the particular construction illustrated, t- -.e is provided a' compressing ring G3 having a pintle g', this pmtle being received in a perforation in the main head andI being provided with a cross pin to hold it in place. Inside and above the gasket, in the machine shown, there is located an abutmentring G2: In the particular machine illustrated, this `abutment ring G2 has, in addition to serving as an abutment for thefgasket, an additional function which will be hereinafter referred to.

The compressing movements of the ring G3 may be effected by a pair -of` arms or levers G4, each of these 4levers .being provided with an adjustable screw g2, these screws'being arrangedto strike lugsg on the compressing ring. The levers G4 may be operated in any suitable manner, as by a link g5 having a yoke g. This yoke g may be connected to arms gfhinged on the rod C5: and operated by cams G5 on thev Tzhe means'by which the liquid to be bottled is conveyed -to -thefilling chamber, when a filling chamber is employed, may be lvariously constructed and arranged. In bottling machines -it is frequently desirable vto bottle combinations of dlfferent kinds of y liquid, such', for instance, as charged and still liquids. Thus in bottling charged or carbonated beverages, it may be desired to add tofeach bottle of Water a given amount of flavoring extract known as syrup lVhcn, as in the machine shown, carbonated water having a .flavoring' extract added thereto is to be bottled,'or when, for any reason, it is desired to fill a bottle with a combination of -liquids, the connections from the filling chamber. will be such as to provide for the handling of the different kinds of liquids. In the particular machine shown, there is provided a duct e3, this duct being .arranged to 'communicate with two sources of liquid supply. One of these sources is indicated by a supply pipe which communicates with al suitable font or carbonating machine. The other source communicafes with a syrupholding receptacle, and

a suitable pump. The discharge from the pipe e2 into the duct e3 may be controlled in any suitable manner, as, fer instance, by a valve E having an operating lspindle c extending through and above a housing. In.

the best constructions, the duct by which the liquid is conveyed to the filling chamber will be arranged to open into thecha-mber at one side, and will have'itsdischarge end,

` the best constructions, these means will inbeing hinged upon the framerod C5 and 'duct c3, in the particular construction shown,

indicated at e4, deflected downward somewhat, so that the entering stream of liquid may be directed diagonally into the bottle somewhat to one side of its mouth. The

is connected with the pump F by means of a passage flo, this passage being controlled by a spring sutmorted valve f. The llquid to be delivered by the pump enters through a pasa/ge f which is controlled by a valve f7, and a passage f5 all as clearly illustrated 1n Figs. 17 and 19. It will be noted that, 1n the particular construction illustrated, the passa-ge j:10 enters the duct c3 in advancebf the point where the. passage e2 connects with the duct. This construction is particularly advantageous Where the liquid to be delivered by the pump is a tlavoring syrup, for the reason that the incoming rush of the water carries the charge of syrup with it into the bottle.

4Wfhatever be the means employed by which the liquid to4 be bottled is supplied, in the best constructions embodying the 1n venticn, these means will be bottle controlled, thatis to say, the supply of the liquid will be made to depend upon the presence in the machine of a bottle to be filled. The particular lmeans by which tlie presencevof a bottle to be illed in the ma-' chine may be made effective to control the liquid supply may be Widely varied. In

clude an actuator which is normally inoperative and which is properly positioned or cans` 'l to be operative by the presence of a bottle in the machine. In the particular machine illustrated, this actuator includes a rod f7, this rod passing through a bracket extending trom the head CT (see Fig. 5) and at. its foot being swiveled in a short arm d5 at the outer end of a lever (Z', this lever being provided with a lateral stud for a roller which engages a cam groove in theside of a cam F/ (see Figs. 1, 3 and G). It l will be apparent that as the shaft B'rotates, this rod Z will be given vertical reciprocating movenufnts. In the particular construction illustrated, the rod is provided with an adjustable tappct-e. This tappct is so ari ranged that when the rod is properly positioned. it will strike the stem c of the Water t controlling valve E and open the valve. l This actuator rod is normally inoperativei as it stands in such a position that its tappet I will not strike the valve.

The actuator, whatever be its construction. is caused to b e operative by the presence of a bottle on theV presenting,lr device. In the Iparticular machine shown. the head CT of the bottle presenting device before re ferred to has pivoted to it a lever D, the pivot of this lever, marked cl3. being supported in a bracket on the head C1. Secured o the pivot of this lever is a toothed segment d2 which engages with long teeth formed on a sleeve d Which surrounds the rod d. The lever D is held forward by a spring Z4 (see Fig. 5)` and when the lever is thus in its forward position the rod d is so turned that the tappet e5 Will not strike the valve stem e. Vhen, however, a bottle is forced into proper position onto the carrier' head C7 the angular bottle centering lever D will be forced back against the spring and the aetuator rod moved into its operative position. A suitable stop as 011 (see Fig. 5) may. be provided to vcoperate with the lever D in centering the bottle on the carrier.

In the machines embodying the invention in its best form, as in the machine illustrated, the actuator not only controls the valve .by which the carbonated water is admitted but also controls the operation 'of the pumpv by which the syrup or other liquid controlled by the pump is introduced. While this'may be effected in various Ways, as shown. the pisto'n rod f of the pump (see Fig. 17) is provided with a cylindrical collar f5, the upper portion of which may be formed as a finger piece so that the rod may be conveniently rotated for adjustment. .The rod is threaded into a sleeved-hub f2 which forms thevtop of the piston f and between this hub and tbe piston rod there may be located a split bushing f3, The top of the sleeved hub is engaged by a nut f* which bears against t-hevtop 4of the split bushing. The. piston rod is or may be graduated, s0 as to enable varying amounts ofliquid to' be delivered by the pump. The actuator rod, in the particular construction illustrated, is provided with a second adjustable tappet f1.1, this tappet having a circular recessed edge so that it may be engaged in close contact with the piston-rod f below the collar f when the actuating rod has been properly positioned by the placing of a bottle on the carrier wl. As th actuator rod reciprocates, it will be understood that the pump piston will he also reciprocated and that varying amounts of liquid will bee-delivered by the pump, according to the adjustment of the {piston rod. The farther the collar f5 is from the collar f* the more lost motion there will be between the tappet f and these collars, and. therefore, `the less liquid will he delivered b v the pump.

cans ma)Y be provided for helding-thepiston rod in properly elevated position when it is at rest. ln the construction illu.- trated. thcsemeans .consist of a spring d tent fm (see Fig. 17) which frictionallv e gages with the lower side of the hub f5. Then the machine is embodied in a machine similar to the particular machine illustrated, it is desirable to provide means for' preventing a bottle from being placed on the carrier CT when the pumpwis nottin proper plying means will be adapted to apply metal sealing caps, such, for-v instance, as caps ofl the well-known crown cork type. While the 'closure applying mechanism may be varied in construction-and will .of course va ry according to the character of closure to be applied, in the particular machine illustrated, the closure applying mechanism includes a cap applying head or tool H which is positioned near the bottom of the head L which is suitably recessed to receive it. As

is common in such constructions, this -head has a tapered portion or throat, this tapered throat in the machine shown being located.: in the upper part of the head. As illus trated, this head rests on the abutment ring G2 before referred to, this abutment ring in which isl being provided with adowel i' socketed into the lower edge othe capping they comprise a cap' plunger L to lock it to the bottle.

tool, as shown in Figs. l and 21. The cavity within this hollow capping tool may serve as a filling chamber, the discharge end e? of the duct e3 referredto by which the liquid is supplied, being formed partly inthe wall of the capping tool below the taperedthroat, and partly in the abutment plate G2. 'l Vhile the tapered throat might -be depended upon alone for applying the caps, in

the best constructions and in the machine shown, there-.will be employedin connection therewith means for applying pressure to the top of the cap, thereby forcing the .cork disk or other packing usually contained 1n the cap firmly against the-bottle lip beforel or near the beginning of the cap 'applying operation which, as is well known 1 n applyin ca s of the crown cork t e consists 1n .P

g p yp i -to the frame, the outer end of thls lever overbending the flange of the\cap.inward so as While these pressure applying means may be varied inconstruction, in the particular machine shown, I artially housed in a chamber in the hea L the lower end extending intothe filling chamber.

The plunger may be surrounded by a strong normally compressed sprmg abuttlng at the top against a detachable head sleeve l and seated upon a plunger flange Z2 which 1n turn is seated upon a packingrlng Z3.

In bottling liguids, and particularly when the liquids are ischarged into a closed fillin chamber, provision should be made for ta g Acare of the air which 1s displaced 'differ Very widely in character. In the particular machine shown, however, the cap plunger L is made tubular, thus considerably increasing the capacity of the mechanism for taking care of the air displaced from the bottle and escaping gas before referred to. This plunger above the tubular portion referred to may be provided with ports m* and there may also be provided a valve M which finds its seat in the upper part of the hollow portion of the cap plunger. This pressure relieving valve, when employed, may be operated in various ways.

As shown, it is provided with a stern m extending through the tappet head sleeve Z', this stem being surrounded by a spring m seated upon a collar m2 fast on the interior ofthe cap plunger L and bearing against a collar mi secured to the end of the stem. It is apparent that by forcing the plunger stem downward, the valve wlll Le opened,`

and that the excess accumulatedl air and gas will be allowed to escape through the port m4 into the chamber L and thence through a pipe as m9. Additional lateral openings mf may be providedat the lower part of the' plunger. These openings may receive a wrench for screwing the lower part of the plunger into place. p

When a pressure relief valve, such as has been referred to, is employed, it may be operated in various ways, butin the bestv constructions, it, will be automatically operated. In the particular machine` illustrated, (see Figs. 1 and 24)/ there is provided .a valve operating lever M which is ivoted at its rear in abearin ms secured lying the valve stem m. Mounted on one side of the lever is a roller m7 which' lies in the path of suitable operating or striking devices by which the lever may be operated.

While these operating or striking devices,

when employed, may be of varying construction, as shown, they include a sector M2,

this sect-or being mounted upon a horizontal shaftK suitably supported in bearings on the machine frame and driven inlany suitable manner, as, for instance, by a chain of gearing K2 from the cam shaft' B. This 'sectr, inthe particilar machine shown, is

of round headed provided .with ya pluralit. screws ma, one or more o wluch may be adjusted, so that as the shaft K rotates, the vroll m7 willbe struck thereby and the lever M operated, thus operating the relief valve. The sector M2 may be split in its screw carrying portion and provided with clamping screws (indicated in Figs. 1 and 3) so that such of the screws m8 as are adjusted for service mayv be securely clamped against displacement.

lfVhile the closures may be supplied to the bottles to be capped in various ways, they will preferably be automatically supplied to the closure applying mechanism, this being especially feasible Where caps of the crown cork type are to be applied. The cap supplying means, when such means are employed, may bevaried Widely in construction. In the particular machine illust-rated, a plurality of cap supplying mechanisms are employed, there being one foreach cap applying mechanism. yAs shown, 'there are .provided a plurality of hoppers K to which 'thecaps are supplied in a mass, these hoppers being locatedat the upper rear portion of the machine and being hinged by means of arms upon 'the horizontal shaft K beJ fore referred to. Each hopper is provided with afrotatinofV agitator 1 "mounted on a shaft 7c', this s aft being driven from the shaft K by bevel gears k2 (see F ig. 1). Each hopper has'ri'gidly connected to it a curved cap chute K3 (see Figs. 3, 11, 20 and 21) into which the caps are delivered in a predetermined position. In theparticular construction illustrated, the chutes and hoppers are rockedby mechanism which will be hereinafter described.

While, as has been indicated, any suitable cap forwarding and separating mechanism maybe employed, in machines which embody the invention, that which has been just described is Well adapted for the purpose, for the reason that although the shaft K is constantly rotating, the agitator, which is driven therefrom, is at rest during one rocking movement of the hopper, .because the beveled gear on the agitator shaft moves bodily with its engaged' beveled gear rotating in the same direction. Theagitator is, therefore, at rest during one rocking movement of the hopper and moving during the other movement, and during its movement it is rotated somewhat faster than the rotation of the shaftV K, because then the agitatorgear moves bodily in a direction opposite to that of the bevel gear with which it is engaged. This rocking of the hopper and the intermediate and variable movements of the agitator' tends to maintain the mass of caps in a loose condition, so that they may readily be fed from the hopper.

When caps are to be fed automatically to` a filling chamber, it is desirable that a cap port be provided through which the e ps are introduced into the filling chamber. In the particular machine illustrated, this cap port having a tapered throat is employed, Aso as' to insure the certain entry of the mouth of the bottle sufficiently'v far into the capping tool to enable it to bend inthe flange of the cap and it is further desirable, when caps are automatically fed through a port in the side of the filling chamber, that the cap shall be so held during the filling operation as not to interfere either with the entry of the liquid into the bottle or the escape of air and gas from the bottle. While these conditions may be obtained in various Ways,

vin the particular machine illustrated, the

caps after being dischargedifrom the chute i K3 are so positioned as not to interfere either with the discharge of liquid into the bottle or the escape of air and gas therefrom. As shown, this is effected by 1o`cat ing the` abutment ring G2 immediately .below vthe cap port and providing it with cap positioning ,devices which may consist of two lu s or shoulders k2 having hardened points 4, said shoulders havin a space between themA of less than the dlameter of a flange of the cap, the construction being Well shown in Figs. 12, 13, and 14. This construction permits a cap entering through the port to project somewhat int-o the filling chamber, as indicated by dotted lines in Fig. 13, but not far enough to interfere either with the discharge of the liquid into the .bottle or with the escape of air and gas therefrom. YV hen thus positioned itcan be readily advanced over.the mouth of the bottle when'theilling of the same is completed. rIfhe means employed in the particular machine shown for thus advancing the cap will be hereinafter referred to.

Yit has been heretofore stated thatin the particular machine described theswinging cap chut-e is moved toward and away from the mouth of the cap port and it -will be evident that when the cap chute registers with the cap port, the lowest cap in the chute free to move will be fed linto the cap port. It is also apparent that means should-be employed, when caps are fed to the cap port by a swingingmember throughl which the caps descend by gravity, to prevent the lowest cap from being dropped out when the member is away :from the cap It is of course apparent that means widely differing in'construction may be employed for this purpose.

It has been heretofore stated that the port.

fao

swinging movements ofthe cap chute may. be efiected in various ways. In the particularjmachine shown,1these movements ofthe cap chute are effected bythe gasket compressing lever G4. While the connections for accomplishing this movement of the cap chute may be of any suitable character, they may also be so constructed as to effect t-he locking Yin position 'of the lowest cap. In the particular machine illustrated, the levers G4 have connected to them a pair of4 links kt which links are in turn connected 'to the arms of a bow or bell-crank lever le 'pivote'd at cG to the lower end of the cap chute K3 (see Figs. l1 and 25). The forward end'of this bow or bell-crankv lever is provided'with a spring pinv ll:7 so positioned that it may bea'r upon ,the top of the lowest cap inthech'ute and lthus hold it in positionl Thepartsare so arranged that as the levers G4 move up the bow or bell-crank le- :verv'c5 will be first moved down so as to. bring the spring pin k" into contact with 4the top of the lowest 'cap in the chute, after which the' `further movement of-the levers- G swings the cap chute away from the mouth of the cap port, the two positions of the chute and holdin' pin being well shown in Figs. 11 and 20. Sbuitable limiting means, as, for instance, the screw lcs, may be employed .to prevent an undue movement of the lever fc5. Alining pins les, when the chute advances, enter sockets in the head casing.

After the cap chute has inserted its cap into the port and moved away, the next operation, in machines in which a' sealed cap port is employed, is to 'seal the mouth of the port. As has been indicated, this may be accomplished by widely different constructions. In the particular machine illustrated, this is effected by connections from the arms Gf4 before referred to. As shown, these arms support a sealing device in the form of a block I, thisblock being (see Fig. 11) provided with a `gasket i which is brought into registerl with the cap port, the wall surrounding the port being, if desired` faced ott', as indicated at il', so that a reliable seal may be effected by 'the gasket. The block I is provided with trunnions i, see Figs. 10.

and 22, and limiting stops i5, these trunnions being supported in a yoke frame a" which is pivoted to and between thelever arms Gr".v The side of the yoke frame z" may be provided with a slotted boss 2, the slots being occupied bystuds 8- projecting inward from the levers G4, this construction servingl to limit'the movement of the yoke frame z".`

The block may b e held in proper position so as to engage with vthe surface T'by means of a spring if (s eeFigs. 20. and 21) which is secured to a rod, carried by and located bef tween the levers G4 and to the underside of the block. The head L may, if desired, be provided with a guiding extension I which Serves.: to accurately directthe block in its surfaces i? and 9; The position of the block I when out of service is well illustrated in Fig 10, and by comparing i*this figure with Figs. 20 and 21, it will beapparent that as the levers G4 -move up the .block is moved into its ysealing position. It will be under'- stood that at the time" the block moves into its sealing position, a cap'has been fed by against the lugs The port having been sealed and the illmg' operation completed,

trated, to effect the capping operation In :order to effect this, 'the cap, in the particular machine described, is releasedA from the stop upon the mouth of the bottle. As has been indicated, .the positioning of the cap upon the 'bottle mouth may be effected'in various this is accomplished in part by the upward f movement of the bottle and in part by other means. As shown, the block I which is hol- Vslidably mounted inthe block and is yieldinglyheld in its forward position (see for h. lThis finger is so located that when the block I is swunginto sealing position the pushing fingerH which is in line with the low part It of the recess of plate Gr2 engages `the edge of the cap and is forced back against the pressure of .the spring arms L. As the bottle after beinglled moves upward through the filling chamber into the position where the cap is to be applied, strikes the projecting edge of the cap, (rseedot-tedvlines in Figs. 11 and 13) and tilts thev cap so as to free it. from the shoulders 11.2. 4The cap being ,thus free from the restrainingr induence of the shoulders, the finger H shoots it forward across thebottle mouth, the-further movement of the bottle carrying'the cap upward against the bottom of the cap plunger L which forces it down upon the ment of the bottle presentingr means forcing lthe flange of the cap against the tapering throat of the capping tool which operates to bend in theV cap flange and lock it to the bottle. ha is la". duc. in the cap port sealing device for equalizing the gas pressure in rear of the finger H with that in the filling chamber,`

In operating the capping machines.v especially where liquids under considerable pressure are being bottled` there is more or less danger of the bott-les bursting. To prevent injury to the operator, suitable screens or guards may be provided, and' in the particular' machine shown, there is one of these screens or guards for each bottling mechanism,.and\`these screens or guards are so it remains, in the particular machine illusways. --In the .particular machine 'shown,'

sealing position by contract `ofjthe bearing i i the chute into the ca p po1 t and is resting" shoulder f1.2 and transferred into position i low carries a pushing finger H which is instance, Fig. 11)` by spring controlled arms bottle mouth, and the still further movemounted as to be moved out of operative position to permit the bottles to be placed iii the bottling mechanism, and into positioir thereafter. While the construction may be varied, as illustrated, these guards, marked N, are carried onvertically movable rods fn?,I these rods being operated by means of levers ceases, the bottle presenting device resumes n hinged upon the rod C5 and cams fn.. As a further protection against flying glass, there may hc at each end of the machine a light guard N, and between these plates a Wire screen N2.

.lVhile the machine. illustrated is very efficient for the bottling of charged or carbonated Waters, and especially where a flavoring extract or syrup is added during the bottling operation to the contents of each.

bottle, it will be understood that the invention may be embodied in constructions which differ widely fromthe construction illustrat-ed. Further, it willbe understood that certain features of the invention are capable of useindependently of other features, and that such independent use is contemplated. The invention is not, therefore, to be restricted to the `specific construction, heretofore described and illustrated in the accompanying drawings.

In operating the machine illustrated, any one of the sets of mechanisms may be out of service Without affecting the others, for each set is bottle-controlled as to its liquid feed and cap feed, and if no bottle is placed in position, that set of mechanismsimply runs idly. Some or allof' the sets may be run with only one active source of liquid supply if desired.

The sets of mechanisms may be adjusted so that bottles of one size may be used at one set While bottles of a different size are being used at another set.

Briefiy stated the operation of the machine is as follows: The attendant places a bottle on the lovvest bottle presenting de vice, .then on the one which next reaches. its lowest position until all are carrying bottlg's. The filling head above the bottle carrier first served will, in the meantime, have been closed by the contraction of the gasket and the' closing of the cap port by the pad block, and the head of the bottle will have been properly engaged with or by the gasket, whereupon the carrier rests with a bottle head, as indicated in Fig. 20. Simultaneously With the. operation of the gasket and the pad block, the actuator (l which Was positioned by placing the bottle upon the presenting device, descends, operating the pump and the liquid supply valve. After a partial filling, and when the pressure in the filling chamber checks the entrance of liquid to the bottle, the pressure relief valve M is quickly opened and closed, thus reducing the pressure in the filling chamber and permitting. further deliverylof liquid to the bottle, and this pressure reducing action may be repeated if necessary to complete the filling of the bottle. .The Water valve closes as the actuator rod d rises, and the rod d through its tappet, lifts the pump piston to draw in a fresh charge of liquid such, for instance, as syrup. As soon as the filling its upward movement with the bottle, causing its lip to tilt and release the cap from the lugs h2, so that the spring finger H will project the cap over the bottle to be carried thereby up to the capping plunger and the capping tool, for applying the cap. The gasket will now be relieved from compression and the cappedbottle lowered. The cap port having been opened, the cap chute swings forwardly, and delivers another cap into the cap port, and then retires, permitting the sealing block to resume its duty, and so on throughout the range of each or-l ganization, eachV operating so faroutof time with relation 4to all of the others that each may perform its separate duty, and all may be regularly served by one attendant.

What is claimed is l. In a bottling machine, the combination with a plurality of sets of bottling -mechanisms, each set including a bottle presenting device and a Iclosure applying mechanism, of. Jliquid supplying devices, and

`rneans for continuously operating said setsv out of time. i

2. In a bottling machine, the combination with a plurality ,of sets of bottling mech.- anisms, each set including a bottle presenting device, a closure applying mechanism and a closure supplying mechanism, ,of liquid supplying devices, and means for continuously.operating said sets out of time.

3. In a bottling machine, the combination with a plurality of sets of bottling mechanisms fixed vagainst lateral movement, each set including a bottle presenting device, of a plurality of sources of liquid supply for differentliquids including connections whereby each bottle may be filled from said sources, and means for operating said sets out of time.

l 4. In a bottling machine, the combination with a plurality/of sets of bottling mechanisms, each set including a bottle presenting device and a. closure` applying mechanism, of charged liquid supplying devices, still liquid supplying devices, connections whereby each bottle may be filled with both still and charged liquids, and means for operating said sets out of time.

5. In a bottling machine, the combination with a plurality of sets of bottling mechanisms, each sct including ay bottle presenting` dcvicc,la' closure applying mechanism and a closure supplying mechanism, of

charged liquid supplying devices', still liq-` 4 uid supplying devices, connections whereby 50 of each set being controlled by th I,o12,984 l 9 of a plurality of sets ofbottlingmec'hanisms fixed against lateral movement, each of said sets including a bottle presenting device and a bottle controlled liquid supplying device, and means. for continuously operating 1o said setsA out of time, said means operating to bring the bottles successively int-o filling relation with their filling devices, substantially as' described.

7. In a bottling machine, the combination of a plurality of sets of bottling mechanisms fixed against lateral movement, each set including a vbottle presenting device, a liquid lsupplying device and a cap applying de- 1 vice,`and means for continuously operating said sets out of time. substantially as described.

8. A bottling machine having a plurality of sets of bott-ling mechanisms fixed against lateral` movement, each set including a noriiially reciprocating bottle presenting device, a closure applying device, a liquid supplying device, bottle controlled means for each set for controlling the liquid supplying device of its own set independently of the A other sets, and means for operating the sets out of time.

{M} bottling machine comprising a pluralritp* 'iof sets of bottling mechanisms fixed againstlateral movement, each set including a normally reciprocating bottle presenting device, a liquid supplying device, a normally inoperative actuator for the liquid supply device, a bottle controlled means for rendering the said actuator of its own set 40 effective independently of the other set or sets, and means for operating the sets out of time, substantially as described.

10. A bottling machine comprising a plurality of sets of' bottling mechanisms, each including a filling head, .a cap applying device therein, a bottle, controlled cap feed, a

bottle controlled liquid supplying device,-V

and means for operating the sets out of time, the cap feed and liquid suppl f device e lliottle at that set independently ofthe other set or sets, substantially as described.

11. In a. bottling machine, the combination with a plurality of bottling mechanisms fixed against lateral movement, each'set including av bottlepresenting device, of av plurality of sources .of-liquid supply for difierent liquids including connections controlled' by the bottle in each set- Whereby each bottle may bc-filled from said sources, and means for operating said sets out of time. 12. In .a bottling machine, the combination with a plurality of sets of bottling mechanism, each set includinga bottle presenting device and a cap applying mechanism, of liquid supplying means .for each mechanism, means for each mechanism controlled by the bottle to be filled 'by that mechanism for rendering effective the liquid supplying devices` of that mechanism and means for operating said sets out of time.

13. In a bottling machine, the combination 'of' a plurality of sets of bottling mechanisms, each set including a bottle presenting device, a liquid supply valve for each set, cap applying mechanism foreach set, a pressure relief valve for each set for relieving the pressure in the bottle and filling chamber during the filling of the bottle, and means for continuously operating said sets out of time.-

14. In a bottling machine, the combinatioii. with a plurality of sets of bottling mechanisms, each set including a bottle presenting device,"of liquid supplying devices,

cap supplying devices, cap applying devices,

means for relieving the pressure in the bottles, liottlecontrolled means for rendering operative the liquid supplying devices and means for continuously operating sai sets out of time.

15. In a bottling machine, the combination with a plurality of sets of bottling inachanisms each set including a bottle presenting device, of liquid supplying devices for each set, cap supplying devices, cap vapplying devices for each set, bottle controlled means for rendering the liquid supplying devices operative, and means for continuously operating said sets out of time.

1G. In a bottling machine, the combination with a.v plurality of sets of bottling mechanisms fixed against lateral movement each set including a bottle presenting device, of means for operating said sets continuously and out of time, liquid supplying devices for each sot, and means for varying the relation between the presenting cleviees and the liquid supplying devices .whereby the sets may be adjusted for bottles of different lengths.

17. A bottling machine comprising a plurality of sets of bottling mechanisms each 'set including a bottle presenting device, of

a filling chamber for each set, liquid supplyingdevices, a cap applying mechanism for 4each set, means for continuously operating said sets outof time, and means for adjusting the bottle presenting devices with respect to the filling chambers.

18. In a bottling machine, the combination ivith a vplurality of sets' of bottling mechanisms Ieach'set including a bottle presenting device and'a closui'e applying mechanism, of means for operaling said sets outof time, connections including a valve arranged to communicateqivi'th a.v source of charged liquid supply, connections includ- ,l mechanisms each set including a bottle preliquid supply, and means controlled by the presence of a bottle on the presenting device for automatically operating the valve and the pump.

20.In a bottling machine, the combination with a plurality of sets -of bottling senting device and a closure applying mechanism, of means for operating said sets out of time, connections including a'duct for communicating with a source of charged liquidsupply, a valve in said connections, connections including a pump for communicatirlg with a source of still liquidsupply, said connect-ions communicating 'with the duct between the valve and the discharge end thereof, and means for automatically operating the valve and the pump.

2l. In a bottling machine, the combination with a -plurality of sets of bottling mechanisms, each set including a `bottle-presenting device and a closure applying mech.

anism, pf means'for operating said sets out of time, connections including a duct for communicating with a source of charged liquid supply, a valve in said connections, connections including apmp for communi# rating with a source of still-liquid supply said 'connections communicating with the ductbetween the valve and the discharge end thereof, and means controlled -bythe presence of a bottle on the presenting device or automatically operating the valve and pump.

'mechanism fixed against lateral movement' 'and comprlsmg mcombination a filling 22. A bottling machine having a bottling mechanism fixed against lateral movement and comprising incombination a filling bead, a liquid-supply device, a normally reciprocating bottle presenting device, and' bottle' controlled means moving therewith for controlling the liquid supply device, substantially as described.4 I

23. A bottling machine having a bottling head, a' 11quid supply device, a normally inoperative actuator for the liquid supply device, a normally reciprocating bottle presenting device, and bottle controlled posi- -t'ioning means for the actuator, substantially as described.

24. In a bottling machine', the combination with a filling chamber, of continuously operating bott-le presenting devices, operat- 'ing means, liquid supplying devices, a normally inoperatlve actuator, means whereby' the actuator controls the liquid supplying devices, connectionsl between the actuator and the operating means, and means for vrendering the actuator operativa 25.. In a bottling machine,'the combination with a filling chamber, of a bottle pre senting device, vliquid supplying means in-' cluding a controlling valve, a 'continuously driven power operated actuator, means whereby the `actuator operates the valve, and a bottle controlled `positioning device connected with'the actuator.v

26, In a bottling machine, the combination with a. filling chamber, of a bottle presentingv device, means for centering and clam ing the bottle o n Said device, liquid supp ying means, Vincluding suitable, cont-rolling'means, and an operating connection between the centering means andthe controlling means.

27. In a .bottling machine, the combinai tion with aplurality of filling and capping heads 'each of said heads havingcap apply'- ing devices, of a-bottle presenting device'cooperating With each head, drivmgmeans therefor, liquid supplying devices foreach head each including a suitable Valve, actuating means for said valves, and means rendcred effective by the presence of a bottle on the presenting device for causing the actuating `means to operate the valve of its own set.

tion with a flli g chamber, of means for supplying liquidl thereto, cap applying means, cap feeding 'means, a bottlepresentf ing device, the liquid supplying and cap feeding means being rendered .effective by the presence of a bottle on the presenting device and means for moving the presenting device.

29. In a bottling machine, the combination with a filling chamber, of means for supplyingliquid thereto, controlling devices 28. In a bott-lingmachine, the colnbinalosA for said liquid supplying means including a normally inoperative actuator,lcap applymg means, cap feeding means, anda bottle presenting device, the actuator and cap feeding means being rendered' eiiectivelby the presence of a bottle onthe presentingy device4 and means Vfor moving the presentmg device.

f30. Inga filling machine, the combination with a plurality of sources of liquid supply for v'4, lilfer1'1t--liquids, of a filling chamber, means fory supplying liquid from said sources to the filling chamber said means inf -cluding suitable controlling devices, an actuator common to theV controlling devices, and bottle controlled positioning devices for the actuator.

31. The combination with afilling cham- 32. T he combination with a filling head,4

. of a pump cylinder, connections between the pump cylinder and the filling head, a piston, a piston iod, an operating ,connection for said piston rod, and a holding device for retaining the piston in its uppermostposition until engaged and forced down by the operating connection.

33. The combination with a filling'v head,

of a source of liquid supply, including a )um i a bottle resentinv device. and means 7 b I for preventing the placing of a bottle on the presenting device when the pump is out of adjustment.

84. The'combination.withva filling head,

, of means for supplying liquid thereto, in-

cluding a pump, a bottle presenting device, an actuatorfor the pump, and connections whereby the placing of abott'le in position .renders the yactuator effective, said connections 'also heilig arranged to prevent the placing'of a bottle in position when the pump is o ut ofadjnstment.

35. The combination with a filling cliainber, of means for presentingl a bottle thereto, liquid supplying means, a cap port,

means movable towardand away 'trom `the port to supply caps thereto, and means independent of' the cap supply for sealing the port.

536. The combination with a filling chamber, of means for presenting azhottle thereto, li uid su) il 'innr means` a ca ort a.

chute movable toward and away from the portf'or supplying caps thereto` a retaining device for the ca )s in the chute and sealin means for the port.

37. The combination with a filling chamber, of 'means for presenting bottles thereto, liquid supplying ineans, cap. applying means, a cap feed, and cap positioning devices, the feed being rendered effective by;

the removal of a cap from the positioning devices.

3S. The combination with a filling chamber, of means for presenting bottles thereto, liquid supplying means, cap applying means, a cap port, a cap feed, cappositioning devices, the feed being rendered effective by the removal `f a cap from 'the positioning devices, and means forsealing the cap-port.v

,. .39'. The combination with a filling cham. V-ber;of means for supplying liquid ,there- 051 to, acap port, means for automatically feeding the tothe port, positioning devices for holding the capsto one side of the filling ber', of cap applying means located in the chamber, means for directing liquid into the chamber at one side, thereof, a cap port, -devices for automatically feeding caps to they port, means t'or automatically moving said devices toward and away from the por., au-` tomaticxmeans for sealing the port, positioninv means for holding the caps to on'e side o. the filling. chamber and overl'ianging the same, a bottle carrier, power driven means for operating the bottle carrier to present the bottle 'first to the filling chamber and thereafter to the cap applying ine-ans, and a' spring driven shifting finger for moving the cap across the mouth of the bottle as the cap is lifted away from the positioning means by the bottle.

41. The combination with a filling chainber having a gasket, of means for supplying liquid thereto, a cap port, a chute for feeding capsfto the port, a gasket compressor, a port sealing block, and connections between the gasket compressor, the sealing block and Y thechute whereby, as the gasket and block arttl moved into operative position the chute is moved out.

42. '.lhe combination with a filling chainbei' having` a gasket, of' means for supplying liquid to said chamber, means for presenting a bottle thereto, a cap port, a sealingblock for the4 port, ineansffor guiding the block .into position in register with the port, a

gasket compi-essor, and connections between the compressor and the sealing block.

43. The combination with a filling chamber, of means for supplying liquid wthereto, a bottle presenting device having a vertically movable spring supported head, means for preventing rotation of' the h fad, a bottle centering device mounted on the head, and means coperating with the centering device for controlling the operation of the. liquid supplying means.

44. The combination with a filling chainber, of means for supplying liquid thereto, cap applying means, a chute orsupplying caps, a cap port, means for moving the chute .towardand away from the port, means for v sealing thep ort when the chute is moved away therefrom, and means for retaining the caps in the chute wlienit is moved awa y. 45. 4'1`lhecombination with a filling chaniber, of means for supplying liquid thereto,

cap 'applying means, a chute for supplying caps, a' cap port, means for moving the chute tovirardy and away from the port, means `for liO ist)

' toniatically operating the pin.

46. In a bottling machine, the combination with a plurality of bottling mechanisms each including a. capping and a filling mechanism and a bottle presenting device, of cap feeding mechanism for each bottling meclianism,said mechanism including a hopper for receiving the caps in a mass, agitators, and means forgiving the agitators an intermittent movement.

- 47. The combination with a filling chamber, of a capping mechanism including an annular capping toch-and a .pressure reliefpassage 'extending through said annular capping tool for the escape of air -or gas {from the filling vchamber during the filling of the bottle.

48. The combination with a filling chamber, bf a-capping mechanism including-an annular capping tool, a pressure relief passage extending through said annular capping tool for the escape of air or gas from the filling chamber during the fillingof the bottle, and a valve for controlling the passage.

49. The combination with a filling chamber, of a capping mechanism including ai cap plunger, a pressure reliefpassage in th'. plunger lfor the escape of air or gas frodi the filling chamber during the filling of the bottle, a valve for controlling the passage, and means for automatically operating the valve.

50. The combination with a filling chamber, of two sources of liquid supply for different liquids, an actuator for controlling the fioW of liquid from-said sources, a cap port, cap applying means, and means for automatically `sealing the port.

5l. The combination-With a filling chamber, of two sources of liquid supply for different liquids, an actuator controlling the How of liquid from said sources, a cap port, means for automatically feeding the caps to the port, cap applying means, and means for automatically sealing the port.

52. In a bottling machine, the combination with a plurality ofbottling mechanisms each including filling and capping mechanisms,-of pressure relieving devices, and` a shaft provided with a pluralityof adjust-V able operating cams for said pressure reliev-A mechanisms each including a`bottle presenting device, a filling means and a cap applying means, 'of means for holding caps in a mass and supplying them to said mechai the shaftV and the nisms, and means for operating the sets out of time. v

54. In a bottling machine, the combination with a plurality of bottling mechanisms each including a capping mechanism, a filling mechanism and bottle presenting devices, of cap feeding. mechanism for each bottling mechanism said mechanism including a hopper forreceiving the caps in a mass, and an agitator, a shaft, and operating connections between said shaft and the agitator.

tion with a plurality of bottling mechanisms each including capping and filling mechaing mechanism for each bottling mechanism, said mechanism including a hopper for receiving the caps in a mass and an agitator, a shaft, and operating connections between ressure relief devices.

56. In combination a fillinghead, a bottle presenting device, bottle holding means on said device, means for giving one of said other, means for delivering liquid to the filling head, and controlling means actuated by the placing of a bottle on the presenting device in proper position tQ be filled, said controlling means being in engagement delivery means, substantially as'described.

having a capping tool and a cap port, means for arresting the caps in positionat one side ofthe filling chamber, automat-ic means for sealing the cap port and a 'cap driving finger carried by the automatic cap port sealing means, substantially as described.

' 58. In a bott-ling machine, the combination of a head havin a filling chamber at its lower part, a capping tool having a passage therethrough, a controlling valve for said passage with a stem extending upwardly and above the head with means for operating the same, substantially as described. d 59. In a bottling machine, a filling chamber, a bottle presenting device, two sources of liquid supply connected with thefilling head for supplying different liquids, acontrolled by the bottle to be filled with said liquids for operating first one liquid device scribed.

C. .Term BnnUw-Kns.

5 5. In abottling machine, the combinanisms, of pressure .relief devices, alcap feedparts a movement toward and.from the '57. In a bottling machine, a filling head.

trolling device for each, and -means con-.

and then the other, substantially as de-4 In testimony whereof, I aHix my signature with Vthe holding means for controlling the 

